Low-Temperature XYZ Nano-Positioning Platform

• 详细介绍
• 详细参数

• 详细介绍

  Device capable of achieving high-precision positioning in low-temperature environments

  • Operates normally at extremely low temperatures (such as 4K near absolute zero).

  • High positioning accuracy.

  • Offers a certain range of displacement.

  • Capable of rapid response.

  • Performs nanometer-scale operations in three-dimensional space.

  • Allows multi-angle measurement of samples.

  Applications

  Scientific Research

  1.Nanotechnology Research:

  • Manipulating nanomaterials for assembling and constructing complex nanostructures.

  • Studying the mechanical properties of nanomaterials (e.g., stretching nanowires using the nanometer positioning platform).

  2.Materials Science Research:

  • Investigating the performance and microstructure of superconductors, two-dimensional materials, topological insulators, etc., at low temperatures.

  3.Physics Research:

  • High-precision interference measurement experiments.

  4.Chemistry Research:

  • Controlling the sites and processes of microscopic chemical reactions.

  • Precisely positioning catalysts and reactants.

  Quantum Precision Measurement

  1.Sensor Positioning:

  For example, with quantum sensors based on diamond NV centers (nitrogen-vacancy centers), the nanometer positioning platform can move the sensor or the sample being measured, achieving high-resolution measurement of physical quantities such as magnetic fields and electric fields at the microscopic scale.

  2.Probe Positioning:

  In some scanning quantum measurement systems, the nanometer positioning platform can move the probe for nanoscale scanning, imaging, and analyzing the properties of quantum materials and quantum systems.

  Quantum Fundamental Research

  1.Constructing Microscopic Experimental Environments:

  For example, in extreme environments such as ultra-low temperatures and strong magnetic fields (e.g., superconducting quantum experiments), the nanometer positioning platform can precisely move and position experimental devices and samples without disturbing the environment.

  2.Assisting in Microscopic Structure Construction:

  In experiments studying quantum states, used for constructing and adjusting microscopic structures, such as building specific nanoscale quantum potential well structures.

• 详细参数

• 产品特色

  因用于机器人各方面应用且与大多数机器人类型兼容，AutoCal系统可以检测出机器人自身构造和工具中心点（TCP）的 突然改变或偏离，并且该系统无需人为干涉就自动地更正这些误差。

  AutoCal系统-Dynalog的先进水平校准技术，Dynalog是机器人单元标定技术的世界领导者。它的主流产品DynaCal 系统，被应用于离线的机器人单元校准，并作为最精确的和技术先进的机器人校准程序为许多机器人制造商和终端使用者所接受。AutoCal 系统将已证实的DynaCal校准技术结合到一个在线的全自动系统中，该系统专为程序控制和复原而设计的，价格低廉。

• 详细介绍

  AutoCal系统提供在线的机器人校准方案，旨在快速和自动地保证机械设备的工作性能。因用于机器人各方面应用且与大多数机器人类型兼容，AutoCal系统可以检测出机器人自身构造和工具中心点（TCP）的 突然改变或偏离，并且该系统无需人为干涉就自动地更正这些误差。这意味着不用猜测哪里会出错，不用浪费宝贵时间在机器人程序重复校准上，产品品质无任何损失。

  AutoCal系统-Dynalog的先进水平校准技术，Dynalog是机器人单元标定技术的世界领导者。它的主流产品DynaCal 系统，被应用于离线的机器人单元校准，并作为最精确的和技术先进的机器人校准程序为许多机器人制造商和终端使用者所接受。AutoCal 系统将已证实的DynaCal校准技术结合到一个在线的全自动系统中，该系统专为程序控制和复原而设计的，价格低廉。